氯胺酮
医学
认知
临床试验
观察研究
人体研究
动物研究
临床意义
麻醉
NMDA受体
药理学
神经学
神经心理学
不利影响
神经科学
临床研究
精神科
临床药理学
睡眠剥夺对认知功能的影响
临床研究设计
认知功能衰退
组织病理学
加药
娱乐用途
作者
Songze Li,Kristina T. Kumpf,Julián Urrutia,John H. Krystal,Gerard Sanacora,Samuel T. Wilkinson
标识
DOI:10.1176/appi.ajp.20250276
摘要
This review examines ketamine's neurotoxic potential across preclinical and clinical studies. The authors synthesized data from preclinical models, then integrated findings from human clinical trials of esketamine and observational studies in recreational users. Animal studies have found that repeated or high-dose subanesthetic ketamine administration results in consistent excitotoxic neuronal damage and lasting cognitive deficits, especially in perinatal animals. Infrequently administered relatively low and moderate subanesthetic doses (<1 mg/kg approximate human intravenous equivalent) do not yield overt histopathology in rat and nonhuman primate models. In humans, observational studies in frequent high-dose (>1 g/day) ketamine users show memory and executive function impairments. In contrast, a large clinical trial found that intranasal esketamine at doses up to 84 mg, administered weekly or every other week for several years, is associated with maintained or slightly improved cognitive function in adults with major depression. Lower cognitive function (attention, processing speed) showed some potential worsening among elderly patients; the clinical significance of this is unknown. Direct comparisons of esketamine and off-label racemic ketamine at higher doses have not been done. These studies underscore the potential for neurotoxic effects when ketamine is used at doses or frequencies beyond those utilized in clinical trials, highlighting a critical need for robust longitudinal research. Clinicians are advised to exercise caution, particularly when prescribing ketamine off-label at doses significantly higher than those used in clinical trials. When deviating from this in clinical practice, strong consideration should be given to conducting repeated cognitive assessments. Funding agencies should incentivize preclinical researchers to conduct studies that further elucidate the threshold of ketamine's neurotoxicity.
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